This study is done with a collaborative effort of four members;
Helen Ballard and Gloria Stallworth, Fairfield City Schools,
Fairfield, Alabama, and Annie G. Wells and Nancy Vawter,
Alabama State University-Dept. of Alabama Science in
Motion, Montgomery, Alabama.
OBJECTIVE:
The basic aim of this study is to observe and
analyze data acquired from
contrasting streams, (sources of water
contaminated with nitrates as a
result of NH4 run-of from
fertilizer used on lawns in suburbia vs. run-off
from fields.
Critically analyzed data will provide
insight into: (1) the contamination level
of the variables, (streams of suburbia
vs. agriculture vs. golf course);
(2) The cause of contamination; (3)
factors which may reduce the
contamination, and (4) applications
to the investigators' home state.
The researchers will apply findings
of this study to an ongoing project to
study a specific polluted water source,
the Cahaba River, Birmingham,
Alabama-Jefferson County.
QUESTION:
Which water is more contaminated: streams
of suburbia, streams of
agriculture or streams of golf
course?
BACKGROUND INFORMATION:
* What is "nitrate loading"
of streams?
* How is it caused?
* What is its effect
on the biosphere?
* What factors may reduce
the contaminants?
Nitrate loading of streams
is the response to ground water un-off of grass
from lawns of homes, golf
courses, and agricultural fields which have been
fertilized.
All accross the country,
particularly New Jersey, Maryland, and New York,
polluted run off is killing
fish and other aquatic life; destroying acres of
wetlands and contaminating both
surface water and groundwater,(water table)
with chemicals that are potentially
dangerous to human health.
The source of these contaminants
include everything from livestock manure,
fertilizers, and mining metals
to suburban lawn chemicals.
When rain water washes over land
it carries these contaminants into streams,
or drains down into the ground
water. By the time these contaminants reach
the streams, they are in excess
and thereby "loads" the stream in a
disproportionate ratio to the
amount of water. For example, excessive nitrates
from fertilizers cause algae blooms,
these blooms in turn deplete the oxygen
supply in lakes and streams, SO,
in turn the fish die as a result of a lack of
oxygen. Growth studies demonstrated
that when nitrates are added to
streams, certain species of algae
increase in quantity (Rhine, Crump &
Jordan 1985).
HYPOTHESIS:
Streams of agricultural run-off
is more contaminated than run-off from
suburbia.
INTRODUCTION:
Among the areas of concern within the
realm of environmental quality as
it relates to human survivability, is
water pollution. Despite innovative
programs created by the amendments to
the 1987 Clean Water Act,
toxic run off remains the nation's most
deadly water dilemna.
MATERIALS/METHODS:
topographical
map of Princeton area
vehicle for
transportation to sample site
pH meters-stream
sensitive
conductivity
meter with probe
suitcase-test
chemicals-to perform field lab
tests for nitrates and dissolved oxygen
EXPERIMENTAL PROCEDURE:
Tests:
pH
dissolved oxygen
temperature
turbidity
WHY THESE TESTS?
pH
A pH of 7 is considered neutral. A pH of 9 and above is
considered high. Studies on the production of algae show
that the higher the pH, (9,10); the lower the contamination;
low contamination= low growth rate of algae.
DISSOLVED OXYGEN
Ammonia converts to nitrate when higly aerated. The less
dissolved oxygen the more the nitrate loading; the more
nitrate loading, the less oxygen:, the lesser the oxygen----
more fish die.
TEMPERATURE/ DISSOLVED OXYGEN
As the temperature of the water rises, the rate of photosynthesis
increases, therefore not only do more plants grow more plants
die. When a plant dies, the bacteria which decomposes them
require oxygen. Therefore, an increase in the rate of
photosynthesis is equal to an increasein the need for oxygen; AND
decrease in the amount of dissolved oxygen.
TURBIDITY
Turbidity is a measure of how clear the water is. The more murky
the water, the higher the turbidity. Urban runoff is one of
several causes of high turbidity. The higher the turbidity, the
higher the temperature and the less diversity of aquatic organisms.
PROCEDURE
Wednesday,
July 09, 1997 and Thursday, Jul;y 10, 1997
Using topographical
maps of the Princeton area specific to Highstown,
sample
sites were chosen.
Agricultural--
It was a dificult task to find an agricultural area
area without a development in a proximity of more
than 1 mile.
Surburbia
--Petty Lake- behind a school
Golfcourse--Rocky
Brook- runoff from golfcourse
Wetland
-- dried up, indication of water by presence of
ducktails, however investigators found no source
to acquire a sample.
Fig. 1.1 Map showing location
of sites.
There was no rainfall for
a 38 hour period prior to the time the first samples were tested.
Tests were conducted on samples from approximately 10 am thru late afternoon.
The second samples were tested a little less than 16 hrs. after a severe
thunderstorm. Field lab test was the format. Each of the four
investigators
performed atleast one test in the field lab. Dissolved oxygen
was not performed on the first samples, investigators inadvertently left
the test at the dorm.
RESULTS
dissolved ( p.p.m.)
(oC)
site
oxygen nitrate
temperature pH
turbidity
| suburbia-1 | - | 2.5 | 27.5 | 7.64 | low-clear |
| agricultural-1 | - | .5 | 25.6 | 7.13 | low |
| golfcourse-1 | - | 2.5 | 27.7 | 8.9 | low |
| surburbia-2 | 1.5 | 2.5 | 25 | 7.2 | low |
| agricultural-2 | .1 | .5 | 20.4 | 6.5 | <1 |
| golfcourse-2 | 1.5 | 2.5 | 25 | 7.2 | low |
DISCUSSION:
SUMMARY:
RECOMMENDATIONS: (What
could we have done differently
to avoid
contamination of study.)